WRT-800A (AU)
4-2
Description
WRT-800A is comprised of the following:
AU-258 board
Audio circuit block ............................. Ref. No. 100s
Power supply circuit block ................. Ref. No. 200s
RF-87 board
CPU and peripheral circuit block ....... Ref. No. 300s
RF circuit block .................................. Ref. No. 400s
AU-258 board
.
Audio circuit block
The audio signal which is input from the input connector
(CN101) is input to the pre amplifier circuit (IC101 (1/2)).
The audio signal which is amplified by IC101 is input to
the compressor circuit (IC102). The audio signal is com-
pressed to a signal level of 2:1 (1/2) by the compressor
circuit and then inputs to the limiter circuit (IC103, IC104,
Q101). Limiter level is adjusted by the RV101. The
limiter control signal is fed back from Q101 to the com-
pander circuit (IC102) and activates the limiter operations.
The audio signal is output to the limiter circuit and the pre-
emphasis circuit (IC101(2/2)). Note that time constant for
the pre-emphasis is 50
u
s. The audio signal which is output
from the pre-emphasis circuit is input to the clipper circuit
(Q102,Q103). The clipping level is adjusted by the RV102.
The audio signal that has been clipped when the input
signal amplitude is high, is wave-shaped by the low-pass
filter (Q104).
The audio signal is mixed with the tone signal (X102;
32.768 kHz) and battery alarm signal (X101; 32.782 kHz),
and inputs to the analog switch (IC107). The tone signal
level and battery alarm signal level are adjusted by the
RV103. The mixed audio signal is sent to RF circuit block
(VCO, CP401) of RF-87 board via the reference level
control (RV104).
.
Power supply circuit block
The DC-DC converter circuit (IC201, Q202, Q203)
extracts the 3 V (VCC) from the battery voltage (0.9 to 1.8
V) and supplies to individual circuits. Each of operation
timing is controlled by the CPU (IC301). The DC-DC
converter IC (IC201) is turned ON and OFF by the power
switch circuit (D202, Q201) which is originally controlled
to be switched ON and OFF by the POWER switch (S201).
The diode D201 of the power switch circuit supplied
power to the DC-DC converter IC (IC201) during when the
main power is ON to assist building up IC201 when the
main power is turned on.
When the POWER switch (S201) is turned OFF, Q201
detects the OFF state of the POWER switch (S201) and
sends the detection signal to CPU (IC301). This is done to
turn off the tone signal before the RF carrier signal is
turned off.
The power supply voltage 3 V (VCC) for circuit is turned
off about one second after the POWER switch (S201) is
switched to OFF position.
.
Battery indicator
IC306 always monitors the battery voltage. When the
battery voltage drops to 1.0 V, IC306 sends the detection
signal to CPU (IC301).
The battery alarm signal is oscillated at all times by an
oscillator circuit (IC105 (1/6), X101: 32.782 kHz). When
the switching circuit (IC106) is turned on by the control
signal (LVD signal) from CPU (IC301), the battery alarm
signal is super-imposed on the RF carrier signal. At the
same time, the battery indictor LED (D301) of the main
unit is turned off.
The other device which monitors the battery voltage is
IC307. IC307 sends the detection signal to CPU (IC301)
when the battery voltage drops to 0.9 V. This is done to
turn off the tone signal and the RF carrier signal before the
circuit becomes unstable.
RF-87 board
.
CPU and the peripheral circuit block
The CPU (IC301) is a 4-bit microprocessor, and the clock
is used a 4 MHz (X301, IC303). This clock signal is sent to
IC104 as the reference frequency signal of the PLL circuit.
The transmission frequency is adjusted by CT301. The
CPU sends out the PLL data, and controls the AF mute, RF
mute, and so on.
The voltage detector circuit (IC304, IC305) detects the
power supply voltage (
+
2.7 V) and uses it to reset the CPU
with dropping power supply voltage.
.
RF circuit block
The oscillation circuit utilizes the PLL frequency synthe-
sizer method. The VCO (CP401) is controlled by PLL IC
(IC401). The carrier frequency is controlled by the serial
data (PLL data) sent from the CPU to the PLL IC (IC401).
The lock detection (Q401) detects the lock condition of the
PLL by the output signal (LD signal) from the phase
comparator in the PLL IC, and sends the signal to CPU
(IC301).
The RF signal which is oscillated and modulated by the
VCO (CP401) is input RF amplifier circuit (Q404, Q405).
The RF signal amplified by RF amplifier circuit is output
from the antenna via the low-pass filter (FL401) and
isolator (CP402).
The voltage control circuit (Q402, Q403, D403) performs
ON/OFF control of the power voltage for the RF circuit.
This control signal is the RFM signal from the CPU
(IC301). RF output level is adjusted by the RV401.